Mathematics – Dynamical Systems
Scientific paper
2011-02-25
Mathematics
Dynamical Systems
57 pages, 4 pictures
Scientific paper
We consider volume-preserving flows $(\Phi^f_t)_{t\in\mathbb{R}}$ on $S\times \mathbb{R}$, where $S$ is a closed connected surface of genus $g\geq 2$ and $(\Phi^f_t)_{t\in\mathbb{R}}$ has the form $\Phi^f_t(x,y)=(\phi_tx,y+\int_0^t f(\phi_sx)ds)$, where $(\phi_t)_{t\in\mathbb{R}}$ is a locally Hamiltonian flow of hyperbolic periodic type on $S$ and $f$ is a smooth real valued function on $S$. We investigate ergodic properties of these infinite measure-preserving flows and prove that if $f$ belongs to a space of finite codimension in $\mathscr{C}^{2+\epsilon}(S)$, then the following dynamical dichotomy holds: if there is a fixed point of $(\phi_t)_{t\in\mathbb{R}}$ on which $f$ does not vanish, then $(\Phi^f_t)_{t\in\mathbb{R}}$ is ergodic, otherwise, if $f$ vanishes on all fixed points, it is reducible, i.e. isomorphic to the trivial extension $(\Phi^0_t)_{t\in\mathbb{R}}$. The proof of this result exploits the reduction of $(\Phi^f_t)_{t\in\mathbb{R}}$ to a skew product automorphism over an interval exchange transformation of periodic type. If there is a fixed point of $(\phi_t)_{t\in\mathbb{R}}$ on which $f$ does not vanish, the reduction yields cocycles with symmetric logarithmic singularities, for which we prove ergodicity.
Fraczek Krzysztof
Ulcigrai Corinna
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